DE3306245A1 - Elastic bearing for building structures - Google Patents

Abstract

Elastic bearings for building structures in the form of resilient pads, blocks or similar elements made of rubber or rubber-like plastic require, for firm attachment to the connection part to be cushioned, a rigid, as a rule metallic supporting plate which is provided with the fastening means, such as for example studs, threaded inserts or the like. Frequently occurring disadvantages of these supporting plates are their susceptibility to corrosion and their low vibration damping. In contrast, the invention provides for such bearings a supporting plate of greater layer thickness and produced from a very hard and therefore practically undeformable rubber or plastic and thus creates an all-elastomer bearing which avoids the disadvantages of the known rubber-metal spring elements while retaining all of the desired elastic properties.

Description

Walter Battermann, Laatzen

Elastic support for building structures

The invention relates to elastic supports for building structures, in the form of one formed with knob-like or lamellar elevations on one side and adhering to the other side connected to a rigid support plate under the effect of the bearing pressure elastically deformable spring plate made of a rubber or rubber-like plastic that is adjusted to be slightly hard or medium-hard.

The carrier plate, for example, as a buffer, blocks or the like As a rule, elements of designed supports that are limited in area are metal parts, mostly sheet steel, with the help of which the Support can be attached to the connecting parts in a simple manner can and at the same time ensure the desired even distribution of the surface pressure. Despite their good spring properties Occurs as a disadvantage of the known supports in various ways, Especially in installation positions exposed to the weather and also in other applications, the susceptibility of the metal parts to corrosion, which either requires premature replacement or the use of high-quality stainless steel alloys from the outset. In all Cases this inevitably results in additional costs, which are related to the number of supports required in each case can add up to significant amounts. One that is often perceived as a fundamental defect The peculiarity of these rubber-metal spring elements is also the low level of damping of the metal component, which prevents all vibrations Frequency ranges including structure-borne noise is practically completely permeable.

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It is the object of the invention to provide elastic supports for building structures while fully preserving all the technical advantages of known designs without significant additional expenditure so that they are insensitive to corrosive influences from the outside even under constant exposure and at the same time also to the carrier plate have a high damping at least approximated to the spring part. According to the invention, this object is achieved for supports described type solved in that the carrier plate is made of a very hard set, practically non-deformable rubber or plastic with a layer thickness of a multiple, preferably about three to five times the spring plate - excluding their increases - corresponding order of magnitude is produced. Practical hardness values for the spring plate range between 50 ° and 70 ° and for the carrier plate in the range

zen between 90 ° and 100 °, measured according to Shore (A).

The invention goes far beyond a mere exchange of materials and creates with the · special design and coordination of the essential Structure components on top of each other a new kind of all-elastomer support, that perfectly meets all the requirements of building construction practice. Similar to the usual steel sheets, the can be considered more rigid Block-shaped hard elastomeric carrier plate with bores, threaded inserts, studs or the like. Are provided so that the Assemble the supports in the usual way without any major effort and without any impairment of the specified fastening options can be made. Due to their high damping, the supports according to the invention prove to be all of metal or metal in use -conditions-dependent known two-material versions superior. In addition, there is their extraordinary resistance to corrosion, theirs Installation permitted in any position regardless of e.g. moisture, seepage water or other external influences. You have it in the Hand, the special requirements prevailing in certain applications such as contact with chemicals, oil, fuels or To counter exhaust gases and much more by means of an appropriate mix structure for the carrier plate.

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An embodiment of the invention is illustrated in the drawing in a schematic representation. The only figure 6 drawing shows a new type of support in a perspective view in the installation position seen obliquely from below.

The support shown contains, as an elastically resilient component, a spring plate 1 made of a medium-soft rubber of about 60 ° Shore (A) with lamellae 11 formed on the underside _. carrier plate 2 vulcanized together made of a very hard,

on about 96 ° Shore (A) adjusted rubber. The carrier plate 2 has approximately three times the layer thickness of the spring plate 1 and is therefore extremely rigid as a block-like structure and practically non-deformable in relation to the surface pressures that occur. Appropriately, its upper edge facing away from the spring plate 1 is continuously broken, as indicated by the drawn bevel 12 is.

The height of the staggered rows on the underside The slats formed on the spring plate 1 correspond approximately to the layer thickness the spring plate. Instead of them, knobs, cylindrical or other prismatic or conical surface elevations could also be used be provided so that in a known manner a uniform To achieve distribution of the transverse tensile forces occurring under pressure load. The lamellar shape chosen for the illustrated embodiment brings a directional orientation that is desired under certain circumstances the shear stiffness with it.

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Claims (4)

. "'/' - '■ 33062 ;: Claims: 1. Elastic support for building structures, in the form of one on one Side formed and with knob-like or lame11en-like elevations on the other side adhesively connected to a rigid carrier plate, spring plate made of a soft to medium-hard rubber that is elastically deformable under the action of the bearing pressure or rubber-like plastic, characterized in that the Carrier plate (2) made of a very hard set, practically non-deformable Rubber or plastic with a layer thickness of an order of magnitude corresponding to a multiple of the spring plate (1) consists. 2. Support according to claim 1, characterized in that the carrier plate (2) a layer thickness of about three to five times the layer thickness of the spring plate (1) - excluding its elevations (11) calculated - exhibits. 3. Support according to claims 1 and 2, characterized in that the elevations (11) of the spring plate (1) are dimensioned with a height of an order of magnitude up to a value corresponding to the layer thickness of the spring plate above the plate surface. 4. Support according to Claims 1 to 3, characterized in that the spring plate (1) has a Shore hardness (A) between 50 ° and 70 ° and the carrier plate (2) has a Shore hardness (A) between 90 ° and 100 °. Laatzen, January 28, 1983 COPY I